第11期 王珏等：700℃超超临界锅炉材料GH4700合金热压缩行为 ·1499· (5]Liu Y,Hu R,Li J S,et al.Deformation characteristics of [12]Sanders J M,Ramirez JE,Baker BA.Weldability inves- as-received Haynes230 nickel base superalloy.Mater Sci tigation of Inconel alloy 740 for ultrasupercritical boiler EngA,2008,497(1):283 applications//Proceedings of the 5th Conference on Ad- [6]Jafari M,Najafizadeh A.Correlation between Zener- vances in Material Technology for Fossil Power Plants Hollomon parameter and necklace DRX during hot de- Ohio:ASM International,2008:818 formation of 316 stainless steel.Mater Sci Eng A,2009, [13]Laasraoui A,Jonas J J.Prediction of steel flow stresses at 501(1:16 high temperatures and strain rates.Metll Trans A,1991, [7]Bi Z N,Zhang M C,Dong J X,et al.A new prediction 22(7):1545 model of steady state stress based on the influence of the [14]Goetz R L,Semiatin S L.The adiabatic correction factor chemical composition for nickel-base superalloys.Mater for deformation heating during the uniaxial compression Sci Eng A,2010,527(16):4373 test.J Mater Eng Perform,2001,10(6):710 [8]Yang L,Dong J X,Zhang M C.Deformation behavior and [15 Luton M J,Sellars C M.Dynamic recrystallization in dynamic recrystallization model for 690 alloy at elevated nickel and nickel-iron alloys during high temperature de- temperature.Rare Met Mater Eng,2012,41(4):727 formation.Acta Metall,1969,17(8):1033 (杨亮，董建新，张麦仓.690合金高温变形行为与动态再 [16]Beladi H,Cizek P,Hodgson P D.Dynamic recrystalliza- 结晶模型.稀有金属材料与工程，2012,41(4)：727) tion of austenite in Ni-30 Pct Fe model alloy:microstruc- [9]Taylor A S,Hodgson P D.Dynamic behaviour of 304 ture and texture evolution.Metall Mater Trans A.2009. stainless steel during high Z deformation.Mater Sci Eng 40(5):1175 A,2011.528(9:3310 [17]Wang Y,Shao W Z,Zhen L,et al.Microstructure evo- [10]Shingledecker J P,Pharr G M.The role of eta phase for- lution during dynamic recrystallization of hot deformed mation on the creep strength and ductility of INCONEL superalloy 718.Mater Sci Eng A,2008,486(1):321 alloy 740 at 1023 K(750).Metall Mater Trans A,2012,[18]Mitsche S,Sommitsch C,Huber D,et al.Assessment of 43(6):1902 dynamic softening mechanisms in Allvac718PlusTM by [11]Cowen CJ,Danielson P E,Jablonski P D.The microstruc- EBSD analysis.Mater Sci Eng A,2011,528(10):3754 tural evolution of Inconel alloy 740 during solution treat- [19]Beladi H,Cizek P,Hodgson P D.On the characteristics ment,aging,and exposure at 760 C.J Mater Eng Per- of substructure development through dynamic recrystal- fom,2011,20(6):1078 lization.Acta Mater,2010,58(9):3531第 11 期 王珏等：700 ℃超超临界锅炉材料 GH4700 合金热压缩行为 1499 ·· [5] Liu Y, Hu R, Li J S, et al. Deformation characteristics of as-received Haynes230 nickel base superalloy. Mater Sci Eng A, 2008, 497(1): 283 [6] Jafari M, Najafizadeh A. Correlation between Zener￾Hollomon parameter and necklace DRX during hot de￾formation of 316 stainless steel. Mater Sci Eng A, 2009, 501(1): 16 [7] Bi Z N, Zhang M C, Dong J X, et al. A new prediction model of steady state stress based on the influence of the chemical composition for nickel-base superalloys. Mater Sci Eng A, 2010, 527(16): 4373 [8] Yang L, Dong J X, Zhang M C. Deformation behavior and dynamic recrystallization model for 690 alloy at elevated temperature. Rare Met Mater Eng, 2012, 41(4): 727 (杨亮, 董建新, 张麦仓. 690 合金高温变形行为与动态再 结晶模型. 稀有金属材料与工程, 2012, 41(4): 727) [9] Taylor A S, Hodgson P D. Dynamic behaviour of 304 stainless steel during high Z deformation. Mater Sci Eng A, 2011, 528(9): 3310 [10] Shingledecker J P, Pharr G M. The role of eta phase for￾mation on the creep strength and ductility of INCONEL alloy 740 at 1023 K (750 ◦). Metall Mater Trans A, 2012, 43(6): 1902 [11] Cowen C J, Danielson P E, Jablonski P D. The microstruc￾tural evolution of Inconel alloy 740 during solution treat￾ment, aging, and exposure at 760 ℃. J Mater Eng Per￾form, 2011, 20(6): 1078 [12] Sanders J M, Ramirez J E, Baker B A. Weldability inves￾tigation of Inconel alloy 740 for ultrasupercritical boiler applications // Proceedings of the 5th Conference on Ad￾vances in Material Technology for Fossil Power Plants. Ohio: ASM International, 2008: 818 [13] Laasraoui A, Jonas J J. Prediction of steel flow stresses at high temperatures and strain rates. Metll Trans A, 1991, 22(7): 1545 [14] Goetz R L, Semiatin S L. The adiabatic correction factor for deformation heating during the uniaxial compression test. J Mater Eng Perform, 2001, 10(6): 710 [15] Luton M J, Sellars C M. Dynamic recrystallization in nickel and nickel-iron alloys during high temperature de￾formation. Acta Metall, 1969, 17(8): 1033 [16] Beladi H, Cizek P, Hodgson P D. Dynamic recrystalliza￾tion of austenite in Ni-30 Pct Fe model alloy: microstruc￾ture and texture evolution. Metall Mater Trans A, 2009, 40(5): 1175 [17] Wang Y, Shao W Z, Zhen L, et al. Microstructure evo￾lution during dynamic recrystallization of hot deformed superalloy 718. Mater Sci Eng A, 2008, 486(1): 321 [18] Mitsche S, Sommitsch C, Huber D, et al. Assessment of dynamic softening mechanisms in Allvac°R 718PlusTM by EBSD analysis. Mater Sci Eng A, 2011, 528(10): 3754 [19] Beladi H, Cizek P, Hodgson P D. On the characteristics of substructure development through dynamic recrystal￾lization. Acta Mater, 2010, 58(9): 3531